JP2002281330A - Device and method for processing image - Google Patents

Abstract

PROBLEM TO BE SOLVED: To perform an image processing of image data by using a proper color conversion table according to printing conditions. SOLUTION: A CPU 31 acquires the printing conditions about resolution, printing paper, etc., set by a user by inquiring them to a printer driver and judges whether or not the set printing conditions are corresponding printing conditions corresponding to its own wRGB-CMYK color conversion table. The CPU 31 executes an extension image processing using the wRGB-CMYK color conversion table capable of enhancing image quality of a printed image when the set printing conditions are judged as the corresponding printing conditions.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to an image processing apparatus and an image processing method using an image file.

[0002]

2. Description of the Related Art In an apparatus for handling digital data such as a personal computer, a display and a printer, an sRGB color space is used as a standard color space as a color space representing image data. The sRGB color space is CR
This is a color space taking into account the output characteristics of the T display. For example, even if image data generated in an input device such as a digital still camera (DSC) is defined by a color space wider than the sRGB color space. As long as the output device adopts a color space conforming to the sRGB color space, the colors of the image data may not be correctly reproduced.

[0003] In order to solve this problem, in addition to the sRGB color space, a wide area R having a wider definition area than the sRGB color space is used.
A technology for outputting (reproducing) image data through a color conversion process to a GB color space has been proposed. According to such technology,
The color of the image data generated in the input device can be correctly reproduced in the output device.

[0004]

However, when the output device is a printing device, a plurality of colors are used to convert image data based on the RGB color space into image data based on the CMYK color space using a color conversion table. If it corresponds to the space, the resolution of the image to be output corresponding to each color space,
It is necessary to provide a color conversion table for each printing condition such as a combination of paper qualities. On the other hand, depending on printing conditions such as a combination of resolution and paper quality, there is a case where saturation cannot be improved even if image processing for converting a color space of image data into a wide color space is executed. Therefore, there is a case where a color conversion table is provided only for a printing condition in which the effect of improving the saturation can be obtained by the process of converting the color space of the image data to the wide-range RGB color space. Appropriate measures are required.

SUMMARY OF THE INVENTION The present invention has been made to satisfy the above-mentioned requirements, and has as its object to perform image processing of image data using an appropriate color conversion table according to printing conditions.

[0006]

Means for Solving the Problems and Their Functions / Effects To solve the above problems, a first aspect of the present invention provides an image processing apparatus for executing image processing on an image file. An image processing apparatus according to a first aspect of the present invention includes a printing condition setting unit that sets printing conditions including resolution and printing paper, and converts a color space of image data from a plurality of different color spaces to a first color space. A plurality of color conversion tables for
A color conversion table selecting means for selecting one color conversion table from the plurality of different color conversion tables based on the set printing conditions; and Image processing means for performing image processing including color space conversion processing of the used image data.

[0007] According to the image processing apparatus of the first aspect of the present invention, one color conversion table is selected from a plurality of different color conversion tables based on the set printing conditions, and the color conversion table is selected for the image data. Thus, image processing including a color space conversion process of image data using the selected color conversion table can be performed. Therefore, image processing can be performed using a color conversion table suitable for printing conditions, and a decrease in image quality, which is a problem when the printing conditions and the color conversion table do not match, can be prevented.

In the image processing apparatus according to the first aspect of the present invention, the plurality of color conversion tables store image data based on an sRGB color space which is one of the different plurality of color spaces in the first color space. A first color conversion table for converting into image data based on a CMYK color space, and an image based on a wRGB color space, which is one of the plurality of different color spaces and has a defined area wider than the sRGB color space A second color conversion table for converting data into image data based on the CMYK color space as the first color space. With this configuration, if the printing conditions are met, the color space of the image data is changed to sRG.
Since it is possible to convert from a wRGB color space having a definition area wider than the B color space to a CMYK color space, it is possible to output a higher quality image. If the printing conditions do not match, the image can be output by converting the color space of the image data from the sRGB color space to the CMYK color space.

[0009] In the image processing apparatus according to the first aspect of the present invention, the color conversion table selecting means may determine whether the second color conversion table corresponding to the combination of the resolution and the printing paper exists. , The second color conversion table may be selected. In such a case, if the printing conditions are satisfied, the color space of the image data is changed from the wRGB color space having a wider defined area than the sRGB color space to the C color space.
Since the image is converted to the MYK color space, an image with higher image quality can be output.

In an image processing apparatus according to a first aspect of the present invention, the image file includes the image data and image processing control information for controlling image processing of the image data in a single file. The image processing means includes, in addition to the color space conversion processing, changing the color space of the image data based on the image processing control information from the color space set at the time of generation of the image data. Image processing for converting into a color space which is one of the above. In such a case, the image processing including the color space conversion processing of the image data can be executed in accordance with the color space set at the time of generating the image data. Note that the color space set at the time of generating image data is a unique color space of the image data generating apparatus automatically added at the time of generating image data,
In addition, it can include both color spaces arbitrarily set when generating image data.

In the image processing apparatus according to the first aspect of the present invention, the printing condition includes model information of an output device in addition to the resolution and printing paper, and the image processing device further performs the image processing. Supply means for supplying the output image data to the output device may be provided. With such a configuration, the color conversion table of the output device can be recognized, and image data subjected to image processing can be supplied to the output device.

According to a second aspect of the present invention, there is provided an image processing apparatus for executing image processing on an image file. An image processing apparatus according to a second aspect of the present invention includes: a printing condition obtaining unit configured to obtain printing conditions including a set resolution and printing paper; and a color space of image data from a first color space to a second color space. A plurality of color conversion tables for converting to a space, a color conversion table selecting means for selecting one color conversion table from the plurality of color conversion tables based on the obtained printing conditions, and the image data And an image processing means for performing image processing including a color space conversion process of the image data using the selected color conversion table.

According to the image processing method according to the second aspect of the present invention, the same operation and effect as those of the image processing apparatus according to the first aspect of the present invention can be obtained. Further, the image processing method according to the second aspect of the present invention can be realized in various aspects in the same manner as the image processing apparatus according to the first aspect of the present invention.

[0014] A third aspect of the present invention provides an output device for outputting image data based on an image file. An output device according to a third aspect of the present invention includes the image processing device according to the first or second aspect of the present invention, and an output unit that outputs image data supplied from the image processing device. Features.

[0015] A fourth aspect of the present invention provides an image processing method for an image file. An image processing method according to a fourth aspect of the present invention acquires a printing condition including a resolution and a printing paper, and changes a color space of image data from a plurality of different color spaces based on the acquired printing condition. One color conversion table is selected from a plurality of color conversion tables for converting to a color space, and the color space conversion process of the image data is performed on the image data by using the selected color conversion table. It is characterized by performing image processing including:

According to the image processing method of the fourth aspect of the present invention, the same operation and effect as those of the image processing apparatus of the first aspect of the present invention can be obtained. Further, the image processing method according to the fourth aspect of the present invention can be realized in various aspects, similarly to the image processing apparatus according to the first aspect of the present invention.

According to a fifth aspect of the present invention, there is provided an image processing program for executing image processing on an image file. An image processing program according to a fifth aspect of the present invention comprises:
A function of setting printing conditions including resolution and printing paper; and a plurality of color conversions for converting a color space of image data from a plurality of different color spaces to a first color space based on the set printing conditions. A function of selecting one color conversion table from a table, and a function of performing image processing on the image data including a conversion process of a color space of the image data using the selected color conversion table. It is realized by a computer.

According to the image processing program of the fifth aspect of the present invention, the same operation and effect as those of the image processing apparatus of the first aspect of the present invention can be obtained. Further, an image processing program according to a fifth aspect of the present invention includes the image processing program according to the first aspect of the present invention.
In a manner similar to the image processing apparatus according to the aspect, the invention can be realized in various aspects.

[0019]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An image processing apparatus according to the present invention will be described below with reference to the drawings in the following order based on embodiments. A. Configuration of image processing system: Configuration of Image File: C. Configuration of Image Output Device: Image processing in printer: Other embodiments:

A. Configuration of Image Processing System: The configuration of an image processing system to which the image processing apparatus according to the present embodiment can be applied will be described with reference to FIGS. FIG. 1 is an explanatory diagram illustrating an example of an image processing system to which the image processing device according to the present embodiment can be applied. FIG. 2 is a block diagram illustrating a schematic configuration of a digital still camera capable of generating an image file (image data) output by the image processing apparatus according to the present embodiment.

The image processing system 10 includes a digital still camera 1 as an input device for generating an image file.
2. An image processing device that executes image processing based on an image file generated by the digital still camera 12 and outputs an image, and a color printer 20 as an output device
It has. As the image processing apparatus, besides the printer 20, a personal computer PC or the like that executes the image processing program according to the present invention can be used. As the output device, a monitor 14 such as a CRT display or an LCD display, a projector, or the like may be used in addition to the printer 20. In the following description, it is assumed that the color printer 20 that functions as an image processing device and an output device in a stand-alone manner is used.

The digital still camera 12 is a camera that obtains an image by forming light information on a digital device (CCD or photomultiplier), and as shown in FIG. 2, a CCD for collecting light information. An optical circuit 121 including an optical circuit 121, an image acquisition circuit 122 for controlling the optical circuit 121 to acquire an image, an image processing circuit 123 for processing an acquired digital image, a control including a memory and controlling each circuit The circuit 124 is provided. The digital still camera 12 stores the acquired image as digital data in a memory card M as a storage device.
Save to C. As a storage format of image data in the digital still camera 12, a JPEG format is generally used. In addition, a TIFF format, a GIF format, and a BMP format are also available.
Format, RAW data format, or other storage format may be used.

The digital still camera 12 also sets individual image processing control parameters such as brightness, contrast, exposure correction amount (exposure correction value), white balance, and the like, and a plurality of image processing control parameters in advance according to shooting conditions. Selection for setting the set shooting mode
A determination button 126 and a liquid crystal display 127 for previewing a captured image and setting a shooting mode and the like using the selection / determination button 126 are provided.

The digital still camera 12 used in the image processing system 10 stores image processing control information GC of image data as an image file GF in the memory card MC in addition to the image data GD. That is, the image processing control information GC is automatically stored in the memory card MC together with the image data GD at the time of shooting as information automatically constituting the image file GF.

The image file GF generated by the digital still camera 12 is sent to the color printer 20 via the cable CV, the computer PC, or the cable CV. Alternatively, the memory card MC in which the image file GF is stored in the digital still camera 12 is connected via the computer PC mounted in the memory card slot, or the memory card MC is directly connected to the printer 20. Thus, the image file is sent to the color printer 20. The following description is based on the case where the memory card MC is directly connected to the color printer 20.

B. Configuration of Image File: A schematic configuration of an image file that can be used in the present embodiment will be described with reference to FIG. FIG. 3 is an explanatory diagram conceptually showing an example of the internal configuration of an image file that can be used in the present embodiment.
The image file GF according to the present embodiment is, for example, a digital still camera image file format standard (Exi.
f) can have a file structure according to f). Exif
The file specifications are based on the Japan Electronics Industry Promotion Association (JEID)
A).

Image file GF as Exif file
Is a JPEG image data storage area 111 for storing JPEG image data, and an auxiliary information storage area 1 for storing various information related to the stored JPEG image data.
12 are provided. The attached information storage area 112 stores image processing control information GC, such as shooting date and time, exposure, shutter speed, white balance, exposure correction amount, and target color space, which is referred to when outputting a JPEG image. The additional information storage area 112 has a JPEG image data storage area 1 in addition to the image processing control information GC.
11, thumbnail image data of a JPEG image is stored in TIFF format. As is well known to those skilled in the art, in the Exif format file,
Tags are used to specify each data, and each data may be referred to by a tag name. Note that terms such as file structure, data structure, and storage area in this embodiment mean an image of a file or data in a state where the file or data is stored in the storage device.

The image processing control information GC is information relating to the image quality when image data is generated (photographed) by an image data generation device such as the digital still camera 12, etc. Alternatively, parameters such as exposure time, ISO sensitivity, aperture, shutter speed, and focal length that can be arbitrarily set by the user, and image processing such as exposure correction amount, white balance, shooting mode, and target color space arbitrarily set by the user It may include control parameters.

The image file GF according to this embodiment is
In addition to the digital still camera 12, an input device (image file generating device) such as a digital video camera and a scanner
Can also be generated by

The detailed data structure of the attached information storage area 112 will be described with reference to FIG. FIG. 4 shows an auxiliary information storage area 11 of the image file GF which can be used in this embodiment.
FIG. 4 is an explanatory diagram showing an example of a data structure of No. 2;

The auxiliary information storage area 112 stores image processing control information GC such as an exposure time, a lens F value, an exposure control mode, an ISO sensitivity, an exposure correction amount, a white balance, a flash, a focal length, and a photographing mode, as shown in FIG. Is stored according to a predetermined address or offset value. On the output device side, the image processing control information GC can be obtained by specifying an address or an offset value corresponding to desired information (parameter). Note that the image processing control information GC is an undefined area in the attached information storage area 112 and is stored in a user-defined area that is open to the user.

C. Configuration of Image Output Apparatus: The schematic configuration of the image processing apparatus according to the present embodiment, that is, the color printer 20, will be described with reference to FIG. FIG. 5 is a block diagram illustrating a schematic configuration of the color printer 20 according to the present embodiment.

The color printer 20 is a printer capable of outputting a color image. For example, four color inks of cyan (C), magenta (M), yellow (Y) and black (K) are printed on a printing medium. This is an inkjet printer that forms an image by ejecting ink to form a dot pattern. Alternatively, it is an electrophotographic printer that forms an image by transferring and fixing a color toner on a print medium. As the color ink, in addition to the above four colors, light cyan (light cyan, LC), light magenta (light magenta, LM), and dark yellow (dark yellow, DY) may be used.

As shown, the color printer 20
A mechanism for driving the print head 211 mounted on the carriage 21 to eject ink and form dots, a mechanism for reciprocating the carriage 21 in the axial direction of the platen 23 by the carriage motor 22, and a paper feed motor 24
And a control circuit 30 for transporting the printing paper P. The mechanism for reciprocating the carriage 21 in the axial direction of the platen 23 includes an endless drive between a carriage shaft 22 and a slide shaft 25 slidably holding the carriage 21 erected in parallel with the shaft of the platen 23. It is composed of a pulley 27 on which a belt 26 is stretched, a position detection sensor 28 for detecting the origin position of the carriage 21, and the like. The mechanism for transporting the printing paper P includes a platen 23,
It comprises a paper feed motor 24 for rotating the platen 23, a paper feed auxiliary roller (not shown), and a gear train (not shown) for transmitting the rotation of the paper feed motor 24 to the platen 23 and the paper feed auxiliary roller.

The control circuit 30 controls the operation panel 2 of the printer.
9 while appropriately controlling the movements of the paper feed motor 24, the carriage motor 22, and the print head 211. The printing paper P supplied to the color printer 20
Is set so as to be sandwiched between the platen 23 and the paper feed auxiliary roller, and is fed by a predetermined amount according to the rotation angle of the platen 23.

The carriage 21 has an ink cartridge 2
12 and the ink cartridge 213 are mounted. The ink cartridge 212 contains black (K) ink,
The ink cartridge 213 has another ink, that is,
In addition to three color inks of cyan (C), magenta (M) and yellow (Y), inks of a total of six colors of light cyan (LC), light magenta (LM) and dark yellow (DY) are stored.

Next, the internal configuration of the control circuit 30 of the color printer 20 will be described with reference to FIG. FIG. 6 is an explanatory diagram showing the internal configuration of the control circuit 30 of the color printer 20. As shown in FIG.
CPU 31, PROM 32, RAM 33, PCMCIA slot 34 for acquiring data from memory card MC,
A peripheral device input / output unit (PIO) 35 for exchanging data with the paper feed motor 24, the carriage motor 22, and the like, a timer 36, a drive buffer 37, and the like are provided. The drive buffer 37 includes ink ejection heads 214 to 220
Is used as a buffer for supplying a dot on / off signal to the. These are connected to each other by a bus 38 so that data can be exchanged with each other. The control circuit 30 includes an oscillator 3 that outputs a drive waveform at a predetermined frequency.
9 and a distribution output device 40 for distributing the output from the oscillator 39 to the ink ejection heads 214 to 220 at a predetermined timing.

The control circuit 30 reads out the image file GF from the memory card MC, analyzes the image processing control information GC, and executes image processing based on the analyzed image processing control information GC. The control circuit 30 outputs dot data to the drive buffer 37 at a predetermined timing while synchronizing with the movements of the paper feed motor 24 and the carriage motor 22. The detailed flow of image processing executed by the control circuit 30 will be described below.

D. Image Processing in Color Printer 20: Image processing in the color printer 20 according to the present embodiment will be described with reference to FIGS. FIG. 7 is a flowchart illustrating a processing routine of image processing in the color printer 20 according to the present embodiment. FIG. 8 is a flowchart showing the flow of the extended image processing in the color printer 20. FIG. 9 is a flowchart illustrating a processing routine of image processing in the color printer 20 based on image processing control information. FIG. 10 is a flowchart illustrating a flow of image processing in the color printer 20 in which the primary color space is set to the sRGB color space. FIG. 11 shows a color printer 2
7 is a flowchart showing the flow of normal image processing at 0.

The control circuit 30 (CP) of the color printer 20
U31) reads the image file GF from the memory card MC when the memory card MC is inserted into the slot 34, and temporarily stores the read image file GF in the RAM 33 (step S100). The CPU 31
The printer driver (print control device) is inquired of and acquires the printing conditions for the resolution, printing paper, and the like set by the user (step S110). Since a color conversion table for converting the RGB color space to the CMYK color space is prepared for each combination of the printing resolution and the printing paper, a wide area RGB (wRG) corresponding to the set printing conditions is provided.
B) This is for confirming whether or not to retain the -CMYK color conversion table and executing image processing suitable for printing conditions.

The CPU 31 determines whether the set printing paper is a corresponding paper corresponding to the held wRGB-CMYK color conversion table (step S12).
0), when it is determined that the set printing paper is the corresponding paper (step S120: Yes), the set printing resolution is the corresponding resolution corresponding to the wRGB-CMYK color conversion table held. It is determined whether or not (step S130). When the CPU 31 determines that the set resolution is the corresponding resolution (step S
130: Yes), execute extended image processing using the wRGB-CMYK color conversion table (step S14)
0).

The CPU 31 sends image data, which has been subjected to image processing including wide-range color conversion processing and becomes print image data, to the print head 211 and outputs the image on print paper (step S150). The processing routine ends.

When the CPU 31 determines that the set printing paper is not a corresponding paper (step S120: N
o) Or, when it is determined that the set print resolution is not the corresponding resolution (step S130: No), w
The normal image processing without using the RGB-CMYK color conversion table is executed (step S160). The CPU 31 sends image data that has been subjected to image processing including normal color conversion processing and becomes print image data to the print head 211,
The image is output on the printing paper (step S150), and this processing routine ends.

Next, the extended image processing will be described in detail with reference to FIG. The CPU 31 searches the attached information storage area 102 of the previously read image file GF for image processing control information GC indicating information at the time of generating image data (step S200). The CPU 31 searches for image processing control information.
If found (step S210: Yes), image processing control information GC at the time of generating image data is obtained and analyzed (step S220). The CPU 31 executes image processing described later in detail based on the analyzed image processing control information GC (step S230), and returns to the main routine shown in FIG. In the present embodiment, particularly important image processing control information is primary color space information when the image data is generated, and such information includes a color space unique to the image data generating device automatically given, Both color spaces arbitrarily set by the user are included. This is because if the primary color space information at the time of image data generation is unknown, the primary color space cannot be accurately associated with the wRGB color space. If the primary color space information can be acquired by analyzing the image processing control information, a process of associating the acquired primary color space with the wRGB color space, which will be described later, is executed.

The CPU 31 searches for image processing control information.
If not found (step S210: N
o) Since the image processing control information at the time of generating the image data cannot be reflected, the image processing control information stored in the color printer 20 as a default value in advance,
That is, image processing is performed by acquiring various parameter values from the ROM 32 and setting the primary color space to sRGB (step S240). If the primary color space information is unknown, it is not possible to associate the color space of the image data with the wRGB color space. Therefore, in this embodiment, when the primary color space is unknown, sRGB which is generally used as the primary color space is used. The color space is set as the primary color space and is associated with the wRGB color space. After completing the image processing in which the primary color space is set to sRGB, the CPU 31 returns to the main routine shown in FIG.

Image processing based on image processing control information executed in the color printer 20 will be described in detail with reference to FIG. CPU 31 of the color printer 20
Extracts the image data GD from the read image file GF (step S300). As described above, the digital still camera 12 stores image data as a file in the JPEG format. In the JPEG file, the image data is stored using the YCbCr color space in order to increase the compression ratio.

The CPU 31 executes a 3 × 3 matrix operation S in order to convert image data based on the YCrCb color space into image data based on the sRGB color space (step S310). The matrix operation S is an operation expression shown below.

[0048]

(Equation 1)

The CPU 31 calculates the sRGB obtained in this way.
Gamma correction is performed on the image data based on the color space (step S320). When performing gamma correction, the CPU 31 obtains a DSC gamma value from the image processing control information GC, and performs gamma conversion processing on video data using the obtained gamma value. That is, the gamma value is also included in the image processing control parameter value specified by the image processing control information GC. The arithmetic expression for gamma correction is as follows.

[0050]

(Equation 2)

The CPU 31 executes a matrix operation (N ^-1 M) for associating the primary color space with the wRGB color space on the image data GD on which the gamma correction has been executed (step S330). Since the image file GF used in the present embodiment can include color space information at the time of image generation, if the image file GF includes color space information, the CPU 31 performs the matrix operation (N
^-1 M), the color space information is referred to and a matrix (N ^-1 M) corresponding to the color space at the time of image generation is executed.
To execute a matrix operation.

The matrix operation (N ^-1 M) includes a matrix operation M using a matrix M for converting an RGB color space into an XYZ color space, and a matrix operation using a matrix N for converting a wRGB color space into an XYZ color space. Operation N
^Is a composite matrix with the inverse matrix operation N- ¹ . The matrix M is not included in the definition area of the sRGB color space provided by the matrix operation S, but is included in the definition area of the primary color space, and contains valid image data (color values) as data. This is a matrix for reflecting and converting image data based on the sRGB color space into image data based on the XYZ color space. Therefore, different primary color spaces have different matrix values. The inverse matrix N of the matrix N is obtained by converting the image data converted into the image data based on the XYZ color space by the matrix operation M into sR
This is a matrix for converting (returning to the RGB color space) to a wRGB color space having a definition area wider than the GB color space. The XYZ color space is one of device-independent color spaces that do not depend on the output characteristics of the device, and is used to associate color values between the sRGB color space and the wRGB color space. The matrix operation (N ^-1 M) is an operation expression shown below.

[0053]

(Equation 3)

The color space of the image data GD obtained after the execution of the matrix operation (N ⁻¹ M) is a wRGB color space having a wider defined area than the sRGB color space. Conventionally, a color space used for image processing in a printer or a computer is fixed to sRGB, and the color space of the digital still camera 12 cannot be effectively used. On the other hand, in the present embodiment, when the color space information is included in the image file GF, the matrix (N ⁻¹ M) used for the matrix operation M is changed corresponding to the color space information. In addition, the color space of the digital still camera 12 can be effectively utilized to realize correct color reproduction.

The CPU 31 performs a matrix operation (N ^-1 M)
Inverse gamma correction is performed on the image data obtained in step S340 (step S340). When performing gamma correction, the CPU 31 obtains a default gamma value on the printer side from the ROM 32, and performs an inverse gamma conversion process on the image data GD using the reciprocal of the obtained gamma value. The arithmetic expression used for the inverse gamma correction is as follows.

[0056]

(Equation 4)

The CPU 31 executes an image quality automatic adjustment process on the image data GD on which the inverse gamma correction has been performed (step S350). In the image quality automatic adjustment process in the present embodiment, the image data GD included in the image file GF is analyzed to obtain a characteristic parameter value indicating the image quality, and the image processing control information GC included in the image file GF is obtained. Automatic adjustment of the image quality for correcting the image data by reflecting the characteristic parameter values thus performed is executed. In the image quality automatic adjustment process, a reference parameter to be a correction target is determined in advance, and the image data is corrected so that the characteristic parameter of the image data approaches or matches the reference parameter. At this time, the image processing control information GC may be used to change the value of the reference parameter, or may be used to change the degree by which the value of the characteristic parameter approaches the value of the reference parameter. good.

In the correction of image data, for example, for brightness, contrast, color balance, etc., each pixel (pixel) is obtained by using a characteristic line, which is generally called a tone curve, and associates an input level and an output level of an RGB signal.
Executed in units. For example, for saturation, sharpness, noise reduction, and the like, pixel calculation processing (filter processing) is executed in pixel units instead of tone curve processing.

When the image quality automatic adjustment processing is completed, the CPU 31 executes wRGB-CMYK color conversion processing for printing (step S360). In the wRGB color conversion processing, the CPU 31 stores the w
The color space of the image data is changed from the wRGB color space to the CMYK color space with reference to a conversion lookup table (LUT) that associates the RGB color space with the CMYK color space.
That is, image data consisting of R, G, B gradation values is used in the color printer 20, for example, C, M, Y, K
-Conversion into data of gradation values of each of 6 colors of LC and LM.

CPU 31 executes a halftone process (step S370), and returns to the routine shown in FIG. In the halftone process, color-converted image data is received, and a tone number conversion process is performed. In the present embodiment, the image data after the color conversion is expressed as data having 256 gradation widths for each color. On the other hand, in the color printer 20 according to the present embodiment, “form dots”,
Only one state of “do not form a dot” can be taken, and the color printer 20 of this embodiment can only locally express two gradations. Therefore, image data having 256 gradations is converted into image data represented by two gradations that can be represented by the color printer 20. This binarization (binarization)
Typical methods of processing include a method called an error diffusion method and a method called an organized dither method.

In the color printer 20, prior to the color conversion processing, when the resolution of the image data is lower than the printing resolution, linear interpolation is performed to generate new data between adjacent image data, and conversely, the new data is generated based on the printing resolution. If the image data is higher, a resolution conversion process for converting the resolution of the image data to the print resolution is performed by thinning out the data at a fixed rate.
In addition, the color printer 20 executes an interlace process of rearranging the image data converted into a format indicating the presence or absence of dot formation into an order to be transferred to the color printer 20.

The image processing executed in the color printer 20 with the primary color space being sRGB will be described in detail with reference to FIG. Note that, of the processing executed in each step, processing similar to the processing in the extended image processing described with reference to FIG. 9 will be described only briefly. The CPU 31 of the color printer 20 extracts the image data GD from the read image file GF (Step S400). The CPU 31 executes a 3 × 3 matrix operation S in order to convert image data based on the YCrCb color space into image data based on the sRGB color space (step S410). The matrix operation S is the above-described operation expression.

The CPU 31 executes a matrix operation (N ^-1 M) for associating the primary color space and the wRGB color space with the image data GD based on the sRGB color space obtained by executing the matrix operation S (step S42).
0). This processing routine is executed when the image processing control information GC is not included in the image file GF.
A matrix operation cannot be executed by referring to the color space information and using a matrix (N ^-1 M) corresponding to the color space at the time of image generation. Therefore, the CPU 31 converts the primary color space, which is the color space when the image data GD is generated, into sRG.
Assuming B, the matrix operation (N ⁻¹ M) is executed.
The illustration of the matrix N ⁻¹ M for converting the sRGB color space as the primary color space into the wRGB color space will be omitted.

The CPU 31 performs a matrix operation (N ^-1 M)
The image quality is automatically adjusted for the image data obtained in step S430 (step S430), and wR for printing is
A GB-CMYK color conversion process is executed (step S44)
0). Finally, the CPU 31 executes a halftone process (step S450), and returns to the routine shown in FIG.

The normal image processing executed in the color printer 20 will be described in detail with reference to FIG.
Note that among the processing executed in each step, FIG.
The processing similar to the processing in the extended image processing described with reference to FIG. The CPU 31 of the color printer 20 reads the read image file G
Extract image data GD from F (step S50)
0). The CPU 31 executes a 3 × 3 matrix operation S in order to convert image data based on the YCrCb color space into image data based on the sRGB color space (step S5).
10). The matrix operation S is the above-described operation expression.

The CPU 31 executes an image quality automatic adjustment process on the image data obtained by the matrix operation S (step S520), and executes sRGB-C for printing.
The MYK color conversion processing is executed (step S530). This processing routine determines wRGB-C
When the MYK color conversion cannot be executed, that is, when there is no wRGB-CMYK color conversion table corresponding to the selected printing condition, the normal sRGB-C
An MYK color conversion table is used. Finally, CPU3
1 executes a halftone process (step S45).
0), and return to the main routine shown in FIG.

As described above, according to the color printer 20 of the present embodiment, the R value is determined based on the printing conditions such as the combination of the printing resolution and the type of printing paper.
A GB-CMYK color conversion table can be selected. Further, in this embodiment, a wRGB-CMYK color conversion table capable of reproducing the color values (image data) included in the definition area of the color space at the time of generating the image data is used as the RGB-CMYK color conversion table. Have. Therefore, the RGB-CM that matches the printing conditions
The image processing of the image data can be performed using the YK color conversion table, and when the printing conditions are suitable, the image quality of the output image is improved by the extended image processing using the wRGB-CMYK color conversion table. be able to. Further, it is not necessary to prepare a wRGB-CMYK color conversion table, which is a wide-range color conversion table, in advance for all printing conditions. Since it is sufficient to prepare a CMYK color conversion table, the required amount of memory resources can be reduced.

Further, sRGB is calculated by the matrix operation S.
Since the color space of the image data converted into the color space can be converted into the wRGB color space by reflecting the color space unique to the image output device at the time of generating the image data or the color space arbitrarily set, The saturation of the image data can be improved while considering the correspondence with the primary color space.

F. Other Embodiments In the above embodiment, all image processing is executed in the color printer 20 without the intervention of the personal computer PC, and a dot pattern is formed on a print medium in accordance with the generated image data GD. All or a part of the image processing may be executed on a computer or on a server via a network. In this case, this is realized by providing an image data processing application (program) such as a retouch application or a printer driver installed on a hard disk or the like of the computer with the image processing function described with reference to FIGS. You.

For example, an image file GF generated by the digital still camera 12 is provided to a computer via a cable or a memory card MC, and an application is started on the computer by a user operation. Then, reading of the image file GF, analysis of the image processing control information GC, inquiry to the printer driver, conversion and adjustment of the image data GD are executed. Alternatively, by detecting the insertion of the memory card MC, or alternatively, by detecting the insertion of the cable, the application is automatically started, the image file GF is read, and the image processing control information G is read.
The analysis of C and the conversion and adjustment of the image data GD may be automatically performed.

Further, it may be possible to select a characteristic parameter value for executing the automatic image quality adjustment. For example, a parameter selection button on the color printer 20, or
A selection button for a shooting mode parameter in which predetermined parameters are combined according to the subject may be provided, and a parameter for performing the automatic image quality adjustment may be selected with the selection button. When automatic image quality adjustment is performed on a personal computer, a parameter for performing automatic image quality adjustment may be selected on a user interface of a printer driver or a retouch application.

In the above embodiments, the color printer 20 is used as an output device.
A display device such as an LCD and a projector can also be used. In such a case, for example, an image processing program (display driver) that executes the image processing described with reference to FIGS.
Is executed. Alternatively, when a CRT or the like functions as a display device of a computer, the computer executes an image processing program. However, the finally output image data has an RGB color space instead of a CMYK color space.

The image processing apparatus, the image processing method, the image processing program, and the image output apparatus according to the present invention have been described based on the embodiments.
This is for the purpose of facilitating the understanding of the present invention, and does not limit the present invention. The present invention can be modified and improved without departing from the spirit and scope of the claims, and it is needless to say that the present invention includes equivalents thereof.

In the above embodiment, the light source, the exposure correction amount, the target color space, the brightness,
Although parameters such as sharpness are used, in the present embodiment, at least which parameter is used as the image processing control information GC is a target color space (color space at the time of image generation).

The matrices S, N ^-1 in each formula
The value of M is merely an example, and it goes without saying that the value of M can be changed as appropriate depending on the target color space, the color space available in the color printer 20, and the like.

In the above embodiment, the digital still camera 12 has been described as the image file generating device.
In addition, a scanner, a digital video camera, or the like can be used. When using a scanner, the image file G
The designation of the captured data information of the F may be executed on the computer PC, or a preset button, a display screen for arbitrary setting, and a setting button assigned to the scanner in advance for setting information are set on the scanner. This may be provided, and the scanner may be executable by itself.

In the above embodiment, an Exif format file has been described as a specific example of the image file GF.
The format of the image file according to the present invention is not limited to this.
That is, any image file containing image data generated by the image data generation device and image processing control information GC describing conditions (information) at the time of generation of the image data may be used. With such a file, the image quality of the image data generated by the image file generation device can be automatically adjusted appropriately and output from the output device.

The digital still camera 12 and the color printer 20 used in the above embodiments are merely examples, and the configuration is not limited to the contents described in each embodiment. The digital still camera 12 only needs to have at least the function of generating the image file GF according to the above embodiment. In the color printer 20, at least the image file G according to the present embodiment is used.
It suffices if the image processing control information GC of F can be analyzed and an image can be output (printed) using the wRGB color space or the sRGB color space.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram illustrating an example of an image data processing system to which an image processing apparatus according to an embodiment can be applied.

FIG. 2 is a block diagram illustrating a schematic configuration of a digital still camera capable of generating an image file (image data) to be processed by the image processing apparatus according to the embodiment.

FIG. 3 is an explanatory diagram showing a schematic internal structure of an image file stored in an Exif file format that can be used in the present embodiment.

FIG. 4 is an explanatory diagram illustrating an example of a data structure of an attached information storage area 112 of an image file GF that can be used in the present embodiment.

FIG. 5 is a block diagram illustrating a schematic configuration of a color printer 20 according to the present embodiment.

FIG. 6 is an explanatory diagram illustrating an internal configuration of a control circuit 30 of the color printer 20 according to the embodiment.

FIG. 7 is a flowchart illustrating a processing routine of image processing in the color printer 20 according to the embodiment.

FIG. 8 is a flowchart illustrating a flow of extended image processing in the color printer 20 according to the present embodiment.

FIG. 9 is a flowchart illustrating a processing routine of image processing based on image processing control information in the color printer 20 according to the present embodiment.

FIG. 10 is a flowchart illustrating a flow of image processing in the color printer 20 according to the present embodiment in which the primary color space is an sRGB color space.

FIG. 11 is a flowchart illustrating a flow of normal image processing in the color printer 20 according to the present embodiment.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 ... Image processing system 12 ... Digital still camera 121 ... Optical circuit 122 ... Image acquisition circuit 123 ... Image processing circuit 124 ... Control circuit 126 ... Selection / determination button 127 ... Liquid crystal display 14 ... Display 20 ... Color printer 21 ... Carriage 211 ... Print head 212 ... Ink cartridge 213 ... Ink cartridge 214-220 ... Ink ejection head 22 ... Carriage motor 23 ... Platen 24 ... Paper feed motor 25 ... Sliding shaft 26 ... Drive belt 27 ... Pulley 28 ... Position detection sensor 29 ... Operation Panel 30 Control circuit 31 Arithmetic processing unit (CPU) 32 Programmable read only memory (PROM) 33 Random access memory (RAM) 34 PCMCIA slot 35 Peripheral device input / output unit (PIO) 6 ... Timer 37 ... drive buffer 38 ... Bus 39 ... oscillator 40 ... distributor output device GF ... image file (Exif file) 111 ... JPEG image data storage area 112 ... ancillary information storage field MC ... memory card

 ──────────────────────────────────────────────────続 き Continuing on the front page F term (reference) 2C262 AA24 AC08 BA02 BC17 BC19 DA16 EA04 EA11 5B057 AA11 BA02 BA25 BA26 CA01 CA08 CA12 CA16 CB01 CB08 CB12 CB16 CC01 CD07 CE11 CE17 CE18 CG02 CH07 5C066 AA01 AA04 GA00 CA05 EE04 KP02 5C077 LL16 LL19 MM03 MP08 NN02 PP15 PP20 PP32 PP33 PP37 PP74 PQ08 PQ23 SS01 SS02 TT02 TT09 5C079 HB01 HB03 HB12 KA20 LA31 LB02 MA05 MA11 NA03 NA18 PA03 PA05

Claims (17)

[Claims] 1. An image processing apparatus for performing image processing on an image file containing at least image data, comprising: a printing condition setting means for setting printing conditions including resolution and printing paper; A plurality of color conversion tables for converting from a plurality of different color spaces to a first color space; and selecting one color conversion table from the plurality of different color conversion tables based on the set printing conditions. An image processing apparatus comprising: a color conversion table selecting unit that performs image processing including a color space conversion process of the image data using the selected color conversion table. 2. The image processing apparatus according to claim 1, wherein the plurality of color conversion tables use image data based on an sRGB color space, which is one of the plurality of different color spaces, as the first color space. CMYK
A first color conversion table for converting into image data based on a color space;
Image data based on the wRGB color space having a larger definition area than the B color space is converted to CMY as the first color space.
A second color conversion table for converting the image data into image data based on a K color space. 3. The image processing apparatus according to claim 2, wherein the color conversion table selecting unit determines the second color conversion table when the second color conversion table corresponding to the combination of the resolution and the printing paper exists. An image processing apparatus for selecting a second color conversion table. 4. The image processing apparatus according to claim 2, wherein the image file includes, in one file, image processing control information for controlling image processing of the image data in addition to the image data. The image processing means, in addition to the color space conversion process,
Performing image processing for converting a color space of the image data from a color space set at the time of generation of the image data to the plurality of different color spaces, based on the image processing control information. apparatus. 5. The image processing apparatus according to claim 1, wherein the printing condition includes model information of an output device in addition to the resolution and printing paper. An image processing apparatus comprising: a supply unit that supplies the image data subjected to the image processing to an output device. 6. An image processing apparatus for executing image processing on an image file, comprising: printing condition acquisition means for acquiring printing conditions including model information of an output device, a set resolution, and printing paper; A plurality of color conversion tables for converting the color space from a plurality of different color spaces to a first color space, and one color from the plurality of different color conversion tables based on the acquired printing conditions. A color conversion table selecting unit that selects a conversion table; an image processing unit that performs image processing on the image data including a color space conversion process of the image data using the selected color conversion table; A supply unit for supplying image data subjected to image processing to an output device. 7. An output device that outputs image data based on an image file, wherein the image processing device according to claim 1 performs image processing by the image processing device. Output means for outputting the image data. 8. An image processing method for an image file, comprising: acquiring printing conditions including resolution and printing paper; and changing a color space of image data from a plurality of different color spaces based on the acquired printing conditions. Selecting one color conversion table from a plurality of color conversion tables for converting to the color space of the image data, and converting the image data into a color space of the image data by using the selected color conversion table. An image processing method for performing image processing including: 9. The image processing method according to claim 8, wherein the plurality of color conversion tables use image data based on an sRGB color space, which is one of the plurality of different color spaces, as the first color space. CMYK
A first color conversion table for converting into image data based on a color space; and one of the different color spaces and the sR
Image data based on a wRGB color space having a defined area wider than the GB color space is converted to CMY as the first color space.
A second color conversion table for converting the image data into image data based on a K color space. 10. The image processing method according to claim 9, wherein the selection of the color conversion table is performed when the second color conversion table corresponding to the combination of the resolution and the printing paper exists. An image processing method which is executed by selecting the second color conversion table. 11. The image processing method according to claim 9, wherein the image file includes the image data and image processing control information for controlling image processing of the image data in one file. In the image processing, in addition to the color space conversion processing, based on the image processing control information, the color space of the image data, from the color space set at the time of generation of the image data the first An image processing method comprising image processing for converting to a color space. 12. The image processing method according to claim 8, wherein the printing condition includes model information of an output device in addition to the resolution and the printing paper. And an image processing method for supplying the image data subjected to the image processing to an output device. 13. An image processing program for executing image processing on an image file, comprising: a function for setting printing conditions including resolution and printing paper; and a color for image data based on the set printing conditions. A function of selecting one color conversion table from a plurality of color conversion tables for converting a space from a plurality of different color spaces to a first color space; and the selected color conversion for the image data. An image processing program for realizing, by a computer, a function of performing image processing including a color space conversion process of the image data using a table. 14. The image processing program according to claim 13, wherein the plurality of color conversion tables use image data based on an sRGB color space that is one of the plurality of different color spaces as the first color space. CMYK
A first color conversion table for converting into image data based on a color space; and one of the different color spaces and the sR
Image data based on a wRGB color space having a defined area wider than the GB color space is converted to CMY as the first color space.
A second color conversion table for converting the image data into image data based on a K color space. 15. The image processing program according to claim 14, wherein the function of selecting the color conversion table is performed when the second color conversion table corresponding to the combination of the resolution and the printing paper exists. An image processing program having a function of selecting the second color conversion table. 16. The image processing program according to claim 14, wherein the image file includes the image data and image processing control information for controlling image processing of the image data in one file. In the image processing function, in addition to the color space conversion processing, based on the image processing control information, the color space of the image data, from the color space set at the time of generation of the image data, the second An image processing program including image processing for converting into one color space. 17. The image processing program according to claim 13, wherein the printing condition includes model information of an output device in addition to the resolution and the printing paper. And an image processing program comprising a supply unit for supplying the image data subjected to the image processing to an output device.